Metadata-Version: 2.1
Name: arduinobootloader
Version: 0.0.6
Summary: Update the firmware of Arduino boards based on Atmel AVR
Home-page: https://github.com/jjsch-dev/PyArduinoFlash
Author: Juan Schiavoni
Author-email: juanschiavoni@gmail.com
License: MIT
Keywords: arduino,flash,bootloader,upgrade
Platform: UNKNOWN
Classifier: Development Status :: 3 - Alpha
Classifier: Environment :: Console
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.2
Classifier: Programming Language :: Python :: 3.3
Classifier: Programming Language :: Python :: 3.4
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Requires-Python: >=3
Description-Content-Type: text/markdown
Requires-Dist: pyserial (>=3.4)

PyArduinoFlash
====


PyArduinoFlash is an open source library in Python for updating the firmware 
of Arduino boards that use the [ATmegaBOOT_168](https://github.com/arduino/ArduinoCore-avr/tree/master/bootloaders/atmega) or Arduino [Stk500V2](https://github.com/arduino/Arduino-stk500v2-bootloader) bootloader, for example [Arduino Nano](https://store.arduino.cc/usa/arduino-nano) or [Arduino Uno](https://store.arduino.cc/usa/arduino-uno-rev3) or [Arduino Mega 2560](https://store.arduino.cc/usa/mega-2560-r3) and many more.

The intention is to have a class that can be imported into any python project to update the Arduinos through the serial port.

It implements a subset of Atmel's STK-500V1 and STK500V2 protocol, using as reference the protocols implemented by [Avrdude](http://savannah.nongnu.org/projects/avrdude) in the ```arduino.c``` and ```wiring.c``` modules.

For Arduino's using Atmel AVR8 processors there are three versions of the bootoloader available. For boards that have less than 128 Kbytes of Flash memory, for example Nano or Uno using the Atmega328P, etc that are marked in the Arduino IDE as older you have to use STK500-V1 at 57600 baud. And for the new ones (they implement the Optiboot bootloader) you have to use STK500-V1 at 115200 baud. 
For boards that have processors of more than 128 Kbytes, for example the Mega 2560, STK500-V2 must be used at 115200 baud.


As an example of use, there is an APP in [KivyMd](https://gitlab.com/kivymd/KivyMD) and [Kivy](http://kivy.org) that exposes through a GUI all the methods required to update and verify the firmware.

The first example shows the upgrade of a Nano board with a new bootolader. Select STK500-V1 at 115200 baud.

![](images/arduino_kivy_stk500v1.gif)

The second example shows the upgrade of a Mega board with 2560 processor. STK500-V2 must be selected at 115200 baud.

![](images/arduino_kivy_stk500v2.gif)

Installation
------------
Install using pip or pip3 (recommended, no separate download required):

``pip install arduinobootloader`` 

Documentation and Examples
----------------------------------------
```python
    from intelhex import IntelHex
    from arduinobootloader import ArduinoBootloader

    ih = IntelHex()
    ab = ArduinoBootloader()
    prg = ab.select_programmer("Stk500v1")

    if prg.open():
        if not prg.board_request():
            prg.close()
            return 

        print("botloader name: {} version: {} hardware: {}".format(ab.programmer_name, ab.sw_version, ab.hw_version))

        if not prg.cpu_signature():
            prg.close()
            return

        print("cpu name: {}".format(ab.cpu_name) )

        ih.fromfile("firmware_file.hex", format='hex')

        for address in range(0, ih.maxaddr(), ab.cpu_page_size):
            buffer = ih.tobinarray(start=address, size=ab.cpu_page_size)
            if not prg.write_memory(buffer, address):
               print("Write error") 
               prg.leave_bootloader()
               prg.close()
               return

        for address in range(0, ih.maxaddr(), ab.cpu_page_size):
            buffer = ih.tobinarray(start=address, size=ab.cpu_page_size)
            read_buffer = prg.read_memory(address, ab.cpu_page_size)
            if not len(read_buffer):
               print("Read error") 
               break

            if buffer != read_buffer:
               print("File not match")
               break

        prg.leave_prg_mode()
        prg.close()
```
The parsing of the file in [Intel hexadecimal format](https://en.wikipedia.org/wiki/Intel_HEX) is done with the [IntelHex](https://github.com/python-intelhex/intelhex) library.

To have an instance of the class use ``ab = ArduinoBootloader()``
The next step is to select the programmer protocol ``prg = ab.select_protocol("Stk500v1") ``. To establish the connection with the bootloader of the Arduino board use ``prg.open()`` that returns ``True`` when it is successful.

As the library needs the information of the CPU to know the size of the page, it is necessary to use the functions ``prg.board_request()`` and ``prg.cpu_signature()``

If the previous functions were executed successfully (they return ``True``), now you have to open the hexadecimal file with the ``ih.fromfile("firmware_file.hex", format='hex')`` function. If there are errors in the format or the file path is invalid, exceptions are thrown.

To obtain the page that corresponds to the current address, use the  ``ih.tobinarray(start=address, size=ab.cpu_page_size)`` .

For the bootloader to write it, use the function ``prg.write_memory(buffer, address)`` which take the buffer and the current address as parameters. Returns ``True`` when completed successfully.

The reading to verify the recording is done in the same way, with the exception that the function returns the buffer read. If it is ``None`` it indicates that there were problems.

The bootloader begins the execution of the firmware after a period of time without receiving communication; nevertheless it is convenient to execute the function ``prg.leave_bootloader()``.

Finally, to release the serial port, you have to execute the function ``prg.close()``.

Scripts
-------
The Script folder contains arduinoflash.py file that allows update or read the firmware of Arduino boards.

One of the purposes is to show the use of the PyArduinoBootloader library in conjunction with the [IntelHex](https://github.com/python-intelhex/intelhex) library to process hexadecimal files.

Use the [argparse](https://docs.python.org/3/library/argparse.html#module-argparse) library, to read the command line (file and options). 

And to indicate the progress the [progressbar2](https://pypi.org/project/progressbar2/) library.

```shell script: usage: arduinoflash.py [-h] [--version] [-r | -u] filename
usage: arduinoflash.py [-h] [--version] [-r | -u] filename

arduino flash utility

positional arguments:
  filename      filename in hexadecimal Intel format

optional arguments:
  -h, --help    show this help message and exit
  --version     script version
  -b BAUDRATE, --baudrate BAUDRATE
                        old bootolader (57600) Optiboot (115200)
  -p PROGRAMMER, --programmer PROGRAMMER
                        programmer version - Nano (Stk500v1) Mega (Stk500v2)
  -r, --read            read the cpu flash memory
  -u, --update          update cpu flash memory

```
The following capture shows the reading of the flash memory of an Arduino Nano board.

![](images/arduinoflash_read_stk500v1.gif)

And the next shows the firmware update of an Arduino Nano board.

![](images/arduinoflash_update_stk500v1.gif)

The following capture shows the reading of the flash memory of an Arduino Mega 2560 board.

![](images/arduinoflash_read_stk500v2.gif)

And the next shows the firmware update of an Arduino Mega 2560 board.

![](images/arduinoflash_update_stk500v2.gif)

Support
-------

If you need assistance, contact me:

* Email      : juanschiavoni@gmail.com


Contributing
------------


Licenses
--------

- PyArduinoFlash is released under the terms of the MIT License. Please refer to the
  LICENSE file.




